Legal claims defining the scope of protection. Each claim is shown in both the original legal language and a plain English translation.
1. A pixel circuit of a light emitting diode display, comprising: a first transistor having a first terminal, a control terminal and a second terminal, wherein the first terminal of the first transistor is configured to receive a data signal, the control terminal of the first transistor is a configured to receive a first control signal; a first capacitor having a first terminal and a second terminal, wherein the first terminal of the first capacitor is electrically connected to the second terminal of the first transistor, the second terminal of the first capacitor is electrically connected to a connecting node; a second transistor having a first terminal, a control terminal and a second terminal, wherein the first terminal of the second transistor is configured to receive a first reference voltage, the control terminal of the second transistor is electrically connected to the connecting node; a third transistor having a first terminal, a control terminal and a second terminal, wherein the first terminal of the third transistor is electrically connected to the connecting node, the control terminal of the third transistor is configured to receive a second control signal, the second terminal of the third transistor is electrically connected to the second terminal of the second transistor; a fourth transistor having a first terminal, a control terminal and a second terminal, wherein the first terminal of the fourth transistor is electrically connected to the connecting node, the control terminal of the fourth transistor is configured to receive a third control signal, the second terminal of the fourth transistor is configured to receive a second reference voltage; a fifth transistor having a first terminal, a control terminal and a second terminal, wherein the first terminal of the fifth transistor is electrically connected to the first terminal of the second transistor, the control terminal of the fifth transistor is configured to receive the second control signal, the second terminal of the fifth transistor is electrically connected to the first terminal of the first capacitor; a second capacitor having a first terminal and a second terminal, wherein he first terminal of the second capacitor is electrically connected to the first terminal of the fifth transistor, the second terminal of the second capacitor is electrically connected to the connecting node; a sixth transistor having a first terminal, a control terminal and a second terminal, wherein the first terminal of the sixth transistor is electrically connected to the second terminal of the second transistor, the control terminal of the sixth transistor is configured to receive a fourth control signal; and a light emitting diode having a first terminal and a second terminal, wherein the first terminal of the light emitting diode is electrically connected to the second terminal of the sixth transistor, the second terminal of the light emitting diode is configured to receive a third reference voltage.
A pixel circuit for an LED display comprises six transistors and two capacitors to improve display quality by compensating for transistor threshold voltage variations. The first transistor receives a data signal and a first control signal. A first capacitor connects to the second transistor. The second transistor receives a first reference voltage. The third transistor connects the second transistor to a second control signal. The fourth transistor connects to a third control signal and a second reference voltage. The fifth transistor connects the second transistor to the first capacitor, controlled by the second control signal. The second capacitor connects to the fifth transistor. The sixth transistor connects the second transistor to a fourth control signal. The LED connects to the sixth transistor and receives a third reference voltage.
2. The pixel circuit of a light emitting diode display according to claim 1 , wherein these transistors each are a P-type thin film transistor.
The pixel circuit for an LED display as described above (comprising six transistors and two capacitors to improve display quality by compensating for transistor threshold voltage variations, where the first transistor receives a data signal and a first control signal, a first capacitor connects to the second transistor, the second transistor receives a first reference voltage, the third transistor connects the second transistor to a second control signal, the fourth transistor connects to a third control signal and a second reference voltage, the fifth transistor connects the second transistor to the first capacitor controlled by the second control signal, the second capacitor connects to the fifth transistor, the sixth transistor connects the second transistor to a fourth control signal, and the LED connects to the sixth transistor and receives a third reference voltage) uses P-type thin film transistors for all six transistors.
3. The pixel circuit of a light emitting diode display according to claim 1 , wherein the light emitting diode is an organic light emitting diode.
The pixel circuit for an LED display as described above (comprising six transistors and two capacitors to improve display quality by compensating for transistor threshold voltage variations, where the first transistor receives a data signal and a first control signal, a first capacitor connects to the second transistor, the second transistor receives a first reference voltage, the third transistor connects the second transistor to a second control signal, the fourth transistor connects to a third control signal and a second reference voltage, the fifth transistor connects the second transistor to the first capacitor controlled by the second control signal, the second capacitor connects to the fifth transistor, the sixth transistor connects the second transistor to a fourth control signal, and the LED connects to the sixth transistor and receives a third reference voltage) uses an organic light emitting diode (OLED) as the light emitting diode.
4. The pixel circuit of a light emitting diode display according to claim 1 , wherein the first reference voltage is configured to have a voltage level greater than that of the second reference voltage, the second reference voltage is configured to have a voltage level greater than that of the third reference voltage, and the second reference voltage has a voltage level less than 0.
The pixel circuit for an LED display as described above (comprising six transistors and two capacitors to improve display quality by compensating for transistor threshold voltage variations, where the first transistor receives a data signal and a first control signal, a first capacitor connects to the second transistor, the second transistor receives a first reference voltage, the third transistor connects the second transistor to a second control signal, the fourth transistor connects to a third control signal and a second reference voltage, the fifth transistor connects the second transistor to the first capacitor controlled by the second control signal, the second capacitor connects to the fifth transistor, the sixth transistor connects the second transistor to a fourth control signal, and the LED connects to the sixth transistor and receives a third reference voltage) uses specific voltage levels. The first reference voltage is greater than the second reference voltage, which is greater than the third reference voltage. The second reference voltage is less than 0.
5. A light emitting diode display, comprising: a power supply unit configured to provide a first reference voltage, a second reference voltage and a third reference voltage through a first power line, a second power line and a third power line, respectively; a scan driver configured to provide a first control signal, a second control signal, a third control signal and a fourth control signal through a first control signal line, a second control signal line, a third control signal line and a fourth control signal line, respectively; a data driver configured to provide a data signal through a data signal line; a timing controller, electrically connected to the scan driver and the data driver, configured to control the scan driver and the data drive; and a plurality of pixel circuits electrically connected to the power supply unit, the scan driver and the data driver, each pixel circuit comprising: a first transistor having a first terminal, a control terminal and a second terminal, wherein the first terminal of the first transistor is electrically connected to the data signal line, the control terminal of the first transistor is electrically connected to the first control signal line; a first capacitor having a first terminal and a second terminal, wherein the first terminal of the first capacitor is electrically connected to the second terminal of the first transistor, the second terminal of the first capacitor is electrically connected to a connecting node; a second transistor having a first terminal, a control terminal and a second terminal, wherein the first terminal of the second transistor is electrically connected to the first power line, the control terminal of the second transistor is electrically connected to the connecting node; a third transistor having a first terminal, a control terminal and a second terminal, wherein the first terminal of the third transistor is electrically connected to the connecting node, the control terminal of the third transistor is electrically connected to the second control signal line, the second terminal of the third transistor is electrically connected to the second terminal of the second transistor; a fourth transistor having a first terminal, a control terminal and a second terminal, wherein the first terminal of the fourth transistor is electrically connected to the connecting node, the control terminal of the fourth transistor is electrically connected to the third control signal line, the second terminal of the fourth transistor is electrically connected to the second power line; a fifth transistor having a first terminal, a control terminal and a second terminal, wherein the first terminal of the fifth transistor is electrically connected to the first terminal of the second transistor, the control terminal of the fifth transistor is electrically connected to the second control signal line, the second terminal of the fifth transistor is electrically connected to the first terminal of the first capacitor; a second capacitor having a first terminal and a second terminal, wherein the first terminal of the second capacitor is electrically connected to the first terminal of the fifth transistor, the second terminal of the second capacitor is electrically connected to the connecting node; a sixth transistor having a first terminal, a control terminal and a second terminal, wherein the first terminal of the sixth transistor is electrically connected to the second terminal of the second transistor, the control terminal of the sixth transistor is electrically connected to the fourth control signal line; and a light emitting diode having a first terminal and a second terminal, wherein the first terminal of the light emitting diode is electrically connected to the second terminal of the sixth transistor, the second terminal of the light emitting diode is electrically connected to the third power line.
An LED display contains a power supply, scan driver, data driver, timing controller, and multiple pixel circuits. The power supply provides first, second, and third reference voltages. The scan driver provides first, second, third, and fourth control signals. The data driver provides a data signal. The timing controller controls the scan and data drivers. Each pixel circuit includes six transistors and two capacitors. The first transistor receives the data signal and the first control signal. A first capacitor connects to the second transistor. The second transistor receives the first reference voltage. The third transistor connects the second transistor to the second control signal. The fourth transistor connects to the third control signal and the second reference voltage. The fifth transistor connects the second transistor to the first capacitor, controlled by the second control signal. The second capacitor connects to the fifth transistor. The sixth transistor connects the second transistor to the fourth control signal. The LED connects to the sixth transistor and receives the third reference voltage.
6. The light emitting diode display according to claim 5 , wherein these transistors each are a P-type thin film transistor.
The light emitting diode display as described above (containing a power supply, scan driver, data driver, timing controller, and multiple pixel circuits, where each pixel circuit includes six transistors and two capacitors; the first transistor receives the data signal and the first control signal, a first capacitor connects to the second transistor, the second transistor receives the first reference voltage, the third transistor connects the second transistor to the second control signal, the fourth transistor connects to the third control signal and the second reference voltage, the fifth transistor connects the second transistor to the first capacitor, controlled by the second control signal, the second capacitor connects to the fifth transistor, the sixth transistor connects the second transistor to the fourth control signal, and the LED connects to the sixth transistor and receives the third reference voltage) uses P-type thin film transistors for all transistors.
7. The light emitting diode display according to claim 5 , wherein the light emitting diode is an organic light emitting diode.
The light emitting diode display as described above (containing a power supply, scan driver, data driver, timing controller, and multiple pixel circuits, where each pixel circuit includes six transistors and two capacitors; the first transistor receives the data signal and the first control signal, a first capacitor connects to the second transistor, the second transistor receives the first reference voltage, the third transistor connects the second transistor to the second control signal, the fourth transistor connects to the third control signal and the second reference voltage, the fifth transistor connects the second transistor to the first capacitor, controlled by the second control signal, the second capacitor connects to the fifth transistor, the sixth transistor connects the second transistor to the fourth control signal, and the LED connects to the sixth transistor and receives the third reference voltage) uses an organic light emitting diode (OLED) as the light emitting diode.
8. A driving method of a pixel circuit of a light emitting diode display, the pixel circuit comprising a light emitting diode, a first transistor, a first capacitor, a second transistor, a third transistor, a fourth transistor, a fifth transistor, a second capacitor, a sixth transistor, the driving method comprising: in a first time period, turning on the fourth transistor and thereby pulling the voltage level at a control terminal of the second transistor down to a second reference voltage; in a second time period following after the first time period, turning on the fifth transistor so as to transmit a first reference voltage to a first terminal of the second capacitor, turning on the third transistor so as to change the voltage level at the control terminal of the second transistor until the second transistor is turned off, and turning off the fourth transistor; in a third time period following after the second time period, turning on the first transistor and thereby transmitting a data signal to the first terminal of the second capacitor and setting, through the coupling of the second capacitor, the voltage level at the control terminal of the second transistor which is connected to the second terminal of the second capacitor; and in a fourth time period following after the third time period, turning on the sixth transistor so as to drive the current flowing through the second transistor and the sixth transistor to light up the light emitting diode.
A driving method for a pixel circuit containing a light emitting diode and six transistors, includes four time periods. First, the fourth transistor is turned on, pulling the voltage at the second transistor's control terminal to the second reference voltage. Second, the fifth and third transistors are turned on, transmitting the first reference voltage to the second capacitor and changing the voltage at the second transistor's control terminal until the second transistor turns off; the fourth transistor is turned off. Third, the first transistor is turned on, transmitting a data signal to the second capacitor and setting the voltage at the second transistor's control terminal through capacitive coupling. Fourth, the sixth transistor is turned on, driving current through the second and sixth transistors to light the LED.
9. The driving method according to claim 8 , wherein the first, third, fifth and sixth transistors are turned off and the fourth transistor is turned on in the first time period.
The driving method for a pixel circuit of a light emitting diode display as described above (that includes four time periods where, first, the fourth transistor is turned on, pulling the voltage at the second transistor's control terminal to the second reference voltage; second, the fifth and third transistors are turned on, transmitting the first reference voltage to the second capacitor and changing the voltage at the second transistor's control terminal until the second transistor turns off, the fourth transistor is turned off; third, the first transistor is turned on, transmitting a data signal to the second capacitor and setting the voltage at the second transistor's control terminal through capacitive coupling; fourth, the sixth transistor is turned on, driving current through the second and sixth transistors to light the LED) involves turning OFF the first, third, fifth and sixth transistors and turning ON the fourth transistor during the first time period.
10. The driving method according to claim 9 , wherein the first, fourth and sixth transistors are turned off and the third and fifth transistors are turned on in the second time period.
The driving method for a pixel circuit of a light emitting diode display as described above (that includes four time periods where, first, the fourth transistor is turned on, pulling the voltage at the second transistor's control terminal to the second reference voltage; second, the fifth and third transistors are turned on, transmitting the first reference voltage to the second capacitor and changing the voltage at the second transistor's control terminal until the second transistor turns off, the fourth transistor is turned off; third, the first transistor is turned on, transmitting a data signal to the second capacitor and setting the voltage at the second transistor's control terminal through capacitive coupling; fourth, the sixth transistor is turned on, driving current through the second and sixth transistors to light the LED; and where the first, third, fifth and sixth transistors are turned OFF and the fourth transistor is turned ON during the first time period) involves turning OFF the first, fourth and sixth transistors and turning ON the third and fifth transistors in the second time period.
11. The driving method according to claim 10 , wherein the third, fourth, fifth and sixth transistors are turned off in the third time period.
The driving method for a pixel circuit of a light emitting diode display as described above (that includes four time periods where, first, the fourth transistor is turned on, pulling the voltage at the second transistor's control terminal to the second reference voltage; second, the fifth and third transistors are turned on, transmitting the first reference voltage to the second capacitor and changing the voltage at the second transistor's control terminal until the second transistor turns off, the fourth transistor is turned off; third, the first transistor is turned on, transmitting a data signal to the second capacitor and setting the voltage at the second transistor's control terminal through capacitive coupling; fourth, the sixth transistor is turned on, driving current through the second and sixth transistors to light the LED; and where the first, third, fifth and sixth transistors are turned OFF and the fourth transistor is turned ON during the first time period; and where the first, fourth and sixth transistors are turned OFF and the third and fifth transistors are turned ON in the second time period) involves turning OFF the third, fourth, fifth and sixth transistors in the third time period.
12. The driving method according to claim 11 , wherein the first, third, fourth and fifth transistors are turned off in the fourth time period.
The driving method for a pixel circuit of a light emitting diode display as described above (that includes four time periods where, first, the fourth transistor is turned on, pulling the voltage at the second transistor's control terminal to the second reference voltage; second, the fifth and third transistors are turned on, transmitting the first reference voltage to the second capacitor and changing the voltage at the second transistor's control terminal until the second transistor turns off, the fourth transistor is turned off; third, the first transistor is turned on, transmitting a data signal to the second capacitor and setting the voltage at the second transistor's control terminal through capacitive coupling; fourth, the sixth transistor is turned on, driving current through the second and sixth transistors to light the LED; and where the first, third, fifth and sixth transistors are turned OFF and the fourth transistor is turned ON during the first time period; and where the first, fourth and sixth transistors are turned OFF and the third and fifth transistors are turned ON in the second time period; and where the third, fourth, fifth and sixth transistors are turned OFF in the third time period) involves turning OFF the first, third, fourth and fifth transistors in the fourth time period.
13. The driving method according to claim 12 , wherein the second time period is greater than at least 1.5 times of the third time period.
The driving method for a pixel circuit of a light emitting diode display as described above (that includes four time periods where, first, the fourth transistor is turned on, pulling the voltage at the second transistor's control terminal to the second reference voltage; second, the fifth and third transistors are turned on, transmitting the first reference voltage to the second capacitor and changing the voltage at the second transistor's control terminal until the second transistor turns off, the fourth transistor is turned off; third, the first transistor is turned on, transmitting a data signal to the second capacitor and setting the voltage at the second transistor's control terminal through capacitive coupling; fourth, the sixth transistor is turned on, driving current through the second and sixth transistors to light the LED; and where the first, third, fifth and sixth transistors are turned OFF and the fourth transistor is turned ON during the first time period; and where the first, fourth and sixth transistors are turned OFF and the third and fifth transistors are turned ON in the second time period; and where the third, fourth, fifth and sixth transistors are turned OFF in the third time period; and where the first, third, fourth and fifth transistors are turned OFF in the fourth time period) specifies that the second time period is at least 1.5 times longer than the third time period.
14. The driving method according to claim 8 , wherein the second time period is greater than at least 1.5 times of the third time period.
The driving method for a pixel circuit containing a light emitting diode and six transistors (that includes four time periods where, first, the fourth transistor is turned on, pulling the voltage at the second transistor's control terminal to the second reference voltage; second, the fifth and third transistors are turned on, transmitting the first reference voltage to the second capacitor and changing the voltage at the second transistor's control terminal until the second transistor turns off, the fourth transistor is turned off; third, the first transistor is turned on, transmitting a data signal to the second capacitor and setting the voltage at the second transistor's control terminal through capacitive coupling; fourth, the sixth transistor is turned on, driving current through the second and sixth transistors to light the LED) specifies that the second time period is at least 1.5 times longer than the third time period.
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September 16, 2014
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